| human | Q5 |
| P9984 | CANTIC ID | 981058520303006706 |
| P496 | ORCID iD | 0000-0002-2075-1536 |
| P1053 | ResearcherID | B-8147-2009 |
| P1153 | Scopus author ID | 8432064600 |
| P10069 | Tabakalera ID | 112150 |
| P11686 | University of Barcelona authority ID | 981058520303006706 |
| P1580 | University of Barcelona authority ID (former scheme) | a1247551 |
| P214 | VIAF ID | 305869576 |
| P108 | employer | University of Barcelona | Q219615 |
| P735 | given name | Albert | Q577011 |
| Albert | Q577011 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q84927303 | A model for the response towards oxidizing gases of photoactivated sensors based on individual SnO2 nanowires |
| Q59121196 | A transfer hamiltonian model for devices based on quantum dot arrays |
| Q59899028 | An experimental method to estimate the temperature of individual nanowires |
| Q83959057 | An investigation on solid state reactions in heat treated Au/Pd thin films for electrodes applications |
| Q57455052 | Bottom-up processing of thermoelectric nanocomposites from colloidal nanocrystal building blocks: the case of Ag2Te–PbTe |
| Q61067573 | Chemoresistive sensing of light alkanes with SnO2 nanocrystals: a DFT-based insight |
| Q59921653 | Concerning the 506cm−1 band in the Raman spectrum of silicon nanowires |
| Q61946424 | Development and application of micromachined Pd/SnO2 gas sensors with zeolite coatings |
| Q59921868 | Effects of Nb doping on the TiO2 anatase-to-rutile phase transition |
| Q59921887 | Electroless Addition of Catalytic Pd to SnO2Nanopowders |
| Q85531995 | Energetics and carrier transport in doped Si/SiO2 quantum dots |
| Q59899031 | Equivalence between thermal and room temperature UV light-modulated responses of gas sensors based on individual SnO2 nanowires |
| Q86618977 | Flexible sensor based on carbon nanofibers with multifunctional sensing features |
| Q60151466 | Functionalization of Reduced Graphite Oxide Sheets with a Zwitterionic Surfactant |
| Q61946457 | Gas detection with SnO2 sensors modified by zeolite films |
| Q59921892 | In situ analysis of the conductance of SnO2 crystalline nanoparticles in the presence of oxidizing or reducing atmosphere by scanning tunneling microscopy |
| Q53797741 | Localized self-heating in large arrays of 1D nanostructures. |
| Q59921719 | Micromachined twin gas sensor for CO and O2 quantification based on catalytically modified nano-SnO2 |
| Q57984001 | Nanosensors: Controlling Transduction Mechanisms at the Nanoscale Using Metal Oxides and Semiconductors |
| Q59308418 | New procedures for building-up the active layer of gas sensors on flexible polymers |
| Q59921871 | Optimization of tin dioxide nanosticks faceting for the improvement of palladium nanocluster epitaxy |
| Q57984003 | Photoexcited Individual Nanowires: Key Elements in Room Temperature Detection of Oxidizing Gases |
| Q57984005 | Room temperature conductometric gas sensors based on metal oxide nanowires and nanocrystals |
| Q57984007 | Shrinkage Effects of the Conduction Zone in the Electrical Properties of Metal Oxide Nanocrystals: The Basis for Room Temperature Conductometric Gas Sensor |
| Q57983945 | Suppression of the NO2 interference by chromium addition in WO3-based ammonia sensors. Investigation of the structural properties and of the related sensing pathways |
| Q59921878 | Surface activation by Pt-nanoclusters on titania for gas sensing applications |
| Q59921706 | Synthesis of Silicon Nanowires with Wurtzite Crystalline Structure by Using Standard Chemical Vapor Deposition |
| Q57984016 | The effects of electron–hole separation on the photoconductivity of individual metal oxide nanowires |
| Q46282496 | The role of oxidative debris on graphene oxide films. |
| Q57984019 | Toward a Systematic Understanding of Photodetectors Based on Individual Metal Oxide Nanowires |
| Q59921578 | Triple-twin domains in Mg doped GaN wurtzite nanowires: structural and electronic properties of this zinc-blende-like stacking |
| Q59899058 | Ultralow power consumption gas sensors based on self-heated individual nanowires |
| Q61946483 | Use of zeolite films to improve the selectivity of reactive gas sensors |
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